The　impact　of　vibrating　manipulation　on　arterial　hemodynamics　and　mechanical　properties　is　explored　by　using　the　finite　element　method　for　the　fluid-structure　interaction.　Numerical　simulation　results　show　that　massage　greatly　changes　the　flow　behavior　of　blood　within　the　artery.　Under　the　massage　manipulation,　the　mean　blood　flow　increases　by　more　than　5.34%　at　a　frequency　of　2f(0)　and　by　smaller　values　at　frequencies　of　f(0)　and　4f(0).　The　blood　flow　has　obvious　disorder　characteristics　and　an　obvious　wall　shear　stress　concentration　in　the　mixed　flow　area.　The　von　Mises　stress　of　the　artery　wall　increases,　reaching　a　peak　value　at　the　maximum　deformation.